Semiannual Radioactive Effluent Release Rept,Jul-Dec 1982.

ML18087A784
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Site:	Salem
Issue date:	03/31/1983
From:	Public Service Enterprise Group
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RERR-13I, NUDOCS 8303280286
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,J '*' REPORT NO. RERR-13I*

UNIT NOS. l & 2 RADIOACTIVE EFFLUENT RELEASE REPORT JULY -DECEMBER 1982 SALEM NUCLEAR GENERATING STATION Public Service Electric and Gas* Company DPR 70 DPR 75 *Due to a major modification in our computer processing equipment, tal:mlations of liquid releas-es were not available for inclusion in this report. A revised report will be* submitted at a later date. M P79 43/33 1-gs 1 8:3032so2s6830303 I PDR ADOCK 05000272 -I R PDR Introduction SALEM NUCLEAR GENERATING STATION UNIT NOS. 1 AND 2 INTERIM REPORT RADIOACTIVE EFFLUENT RELEASE REPORT July 1, 1982 to December 31, 1982 This report, RERR-13I, summarizes the releases of radioactive materials in liquid, gaseous solid form from the Salem Nuclear Generating Station Units l and 2 for the period July 1, 1982 to December 31, 1982. As requested by the United States Nuclear Regulatory Commission (USNRC) this port was prepared in the format specified for all nuclear power plants as defined in USNRC Regulatory*

Guide 1.21*. The report is prepared in the format of Regulatory Guide. 1. 21, Appendix B, as required by Specification

5. 6 .1. 2 of the Salem Environmental Technical Specifications.

Preceding the tables summarizing the gaseous and liquid discharges and .solid waste shipments is our response to parts A-F of the "Supplemental Information" section of the Regulatory Guide 1.21, Appendix B. As required by Regulatory Guide 1.21, our Technical Specification limits are described in detail within this port along with a summary description of how measurements and approximations of the total activity discharged were developed.

• To facilitate determination of compliance with 40CFR190 the following information on electric.al output* is provided.

Unit 1 generated l;.843,38i megawatt:...hours of electrical . energy (net) during the reporting period * . Unit. 2 generated 3,448,270 megawatt-hours of electrical (net) during the reporting*period.

Due to a major modification in our Company's computer processing equipment, tabulations of liquid releases were not available for inclusion in this report. It should be noted that all required radiological analyses were performed and station release records were maintained up to date, however, . the corporate computer programs which summarizei:; .the d.ata .. in the format required by Regulatory Guide 1.21 was not operational.

A revised report will be submitted at a later date.

• M P79 43/33 2-gs -1'."'"

._ _,(! -' . * ' J EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT RERR 13I Part A. PRELIMINARY SUPPLEMENTAL INFORMATION

1.0 Regulatory

Limits We are required to summarize our* regulatory limits in* each report. Symbols utilized in the equations listed below under Sections 1.1 and 1.2 are the same as those used in the Salem Environmental Technical Specifications

,(ETS). The symbol Q as explained . in Section 2. 3. 3 of the ETS is the lease rate of the gaseous activity in units of curies per second. The K, L, M and N terms are actually site depend.ent dose conversion factors. The equations listed below in tions 1.1 and 1.2 take into consideration the release point location, building wake effects and physical characteristics of the radionuclides released.

In addition 40CFR190 regulations require that the annual dose equivalent does not exceed 25 mrem to the whole body or any organ (except the thyroid which is limited to 75 mrem). 1.1 Fission and Gases Release Limits a) Gaseous releases from the nuclear units are limited such that at no time will releases of gaseous radioactive materials cause a member of the general public to. be. exposed to an annual dose rate in excess of 500 mrem to the entire body or 3 rem to the skin-in conformance with b) c) the requirements of 10CFR20. * * * *

• Gaseous releases from the uni ts are further restricted such that when releases are averaged -over* a calendar quarter no member of the general public will be to an annual ra.te in excess of 20 of

• gamma. radiation or 40. millirads of beta radiati_on. . . In addition, it is required that air doses averaged over a twelve month period be less than 40 and 80.inillirads for* gamma and beta_ radiation We use the following equations to demonstrate compliance with these limits: 2. O 1 0.33 Otv*CLv + 1.1 Nv> < 1 M P80 17 18 --2_:

1--j * .. When.averaged over a calendar quarter the release rate for radioactive gases must satisfy the following equation.

The basis for these equations is lOCFRSO Appendix I. 13 Otv*Nv < 1 6.3 Otv*Mv 1 The limiting Unit 1 release limit Q calculated to be

• and

• microcuries/sec for both the 3rd and 4th quarters

• respectively.

The limiting Unit 2 release limit Q is calculated to be

• and

• microcuries/sec.

for the 3rd and 4th quarters respectively

• When averaged over any twelve consecutive month period, the release rate for radioactive gases must satisfy the following equation.

The basis for this equation is 10CFR50 Appendix I. 25 Otv*Nv <: 1 13_0tv*Mv

< 1 The release limits of radioactive gases for the Salem Nuclear -;-Generating Station are not fixed numbers, but depend upon the radioactive isotopes present in the effluent.

1.2 Iodine

and

• Half Life >* 8 days The regu.latory limits for iodines and particulates are listed* below. The release rates of. iodine .and particulates are restricteq such that no member of the general __ public will receive a dose at a rate in excess of 1 .* 5 rem/yr. to the thyroid. Releases of iodines and are further restricted to *prevent any member of the general* public from receiving a dose rate in excess of 30 mrem in a calendar quarter or 60 mrem in any twelve month period. The equations which govern these conditions are listed below:-At any instant of time the release rate for radioactive iodines and material with a half life greater than 8 days is limited by the equation below. The basis for equation is 10CFR20. (1.5 x 105) Ov 1 *To be supplied later. M P80 20 06/l _ *'; *,*:* *,,, ..

• .. _ ........ ** During any calendar quarter the release limit is governed by 'the equations listed below. The basis for these equations_

is 10CFR50 Appendix I. 2 curies of I-131 and Ov x 13 x (1.5 x 105) < 1 ,. During any twelve month period radioactive releases should conform to the following constraints of 10CFR50 Appendix I. 25 x (1.5 x 105) x Ov 1 and 4 curies of I-131 1.3 Liquid Effluents Release-Limits We are not permitted to discharge radioactive liquids such that we exceed the values in 10CFR20, Appendix B, Table II, Column 2. In addition, the following limits apply: The cumulative release of radioactive effluents, excluding tritium and dissolved gases, shall be .less than 10 Ci in a calendar quarter for .each unit * .. The cumulative release of radioactive excluding tritium and dissolved

_gases, shall be less than 20 Ci in any twelve consecutive months* for each unit. . . . -. 2.0 Maximum Permissible Concentrations (MPC) Regulatory Guide 1. 21 requires that the licensee *provide the MPC's used in determining allowable release rates for a) MPC values were not used to determine the maximum lease rates for fission gases, iodines, or particulates.

b) MPC values as stated in 10CR20, Appendix B, Table 11, Column 2 were used for liquids

• M P80 20 06/2

>.,; -.l ' J . -3.0 Average Energy Guide 1.21 requires that the licensee provide the average energy of the radionuclide mixture in releases of fission and activation gases, if applicable.

Release limits for the SNGS are not based upon average energy, hence, this section does not apply. 4.0 Measurements and Approximation of Total Radioact1vity

4.1 Liquid

effluents are monitored in accordance with Table 2.3-3 of the Environmental Technical Specifications.

During the period of record, all wastes from the chemical drain tank and the laundry and hot shower tanks were routed to the h.old-up tanks for moni taring prior to re-_ lease. Technical Specifications require these tanks to be recirculated the equivalent.of two tank volumes to produce uniform mixing before sampling and analyzsis fore any releases are made. Batch releases*are defined as releases from the waste monitor tanks, waste monitor tank, and the chemical and volume control tanks .. Continuous releases are defined as releases from mittent blowdown of the steam generators.

The predom--inate --gamma emitting isotopes detected in -sampling were Co58, Co60, Csl34,*and Csl37. -Specific activity from analyses were mutiplied by the volume of effluent charged to the environment in order t6 estimate the total liquid activity discharged.

4. 2 --Gaseous efflu*ent streams are monitored and sampled in accordance with Table 2. 3....:4 of the -Environmental nical Speciffcations.

The-plant vent is the final point of all plahfied gaseous_ effluents and is continuous monitored by four very sensitive Geiger Mueller (GM) tubes. The GM tubes are intended as a veillance device. The vent is also continuously sampled for and particulates with a charcoal cartridge filter paper connected in series to a low volume air ---sampler. The filter and char.coal

-are changed weekly, and analyzed on a multichannel analyzer in the Sampling is also performed on all gas decay tanks and containment purges, prior to their release to the vironment.

The plant vent is sampled for noble gases monthly. All tritium -samples were taken by bubbling gas through watei and then counting the tritiated water on a liquid.scintillation counter. The detection requirements of Table 2.3-2 of the ETS are achieved or Isotopes existing at tions below the achieved detection limit are treated as numerically equal to zero

• M P80 19 11

. . ... r .. I f Continuous Mode releases are quantified by monthly sampling and isotopic analyses of the plant vent. Specific activities.for each isotope detected are plied by the total vent flow volume for the entire month in order to estimate the normal continuous release of radioactivity through the plant vent if any exists. Batch Mode releases are quantified by the sample of each, gas decay tank or purge prior to Specific activities for each isotope are multiplied by the total volume of gas discharged.

Abnormal releases are treated as batch mode releases.

An abnormal release is defined as any unplanned or controlled release which causes the plant vent monitors to go into an alarm state. If specific activity data from grab samples taken while the release was in progress is not available, then the abnormal release .will be quantified by the use of the plant vent radiation itors. The monitors response is converted in a "specific activity" us_ing efficiency factors. The "specific activity" is multiplied by the volume of fluent discharged while the channel was in an alarm state in order to estimate the total activity discharged

• M P80 19 11 2 Sa

.. -.41 .. 4.3 The estimated total error of the reported continuous gaseous releases is within 50% when concentrations exceed detectable levels. This error is due primarily to variability of waste stream flow rates and changes in isotopic distributions of waste streams between sampling periods. The estimated total error of the reported batch gaseous releases is within 10%. Error *estimates for continuous releases where sample activity is below the detectable concentration levels are included since error at the LLD are not defined

• The estimated total error of reported liquid releases is within 25%. 5.0 Batch *Releases Batch releases of gaseous and liquid effluent are vided in Tables 4A-l and 4B-l .for Unit l and 4A-2 and 4B-2 for Unit .2. 6.o unplanned Releases

• _,.. During this reporting period several abnormal releases were identified and quantified as batch gaseous releas*es in this report. M P80 18 05/l -6.:..

I.. ** !'.i j -..r _ .* Part B. Gaseous Effluents See Summary Tables lA-1 thru lC-1 representative of Salem Unit 1 operations.

See Summary Tables lA-2 thru lC-2 representative of Salem Unit 2 Part c. Lfquid Effluents See Summary Tables 2A-l and 2B-l representative of Salem Unit 1 operations.

See Summary Tables 2A-2 and 2B-2 representative of Salem Unit 2 operations.

Part D. Solid Waste See Summary Table 3 Units 1 and 2 M P82 3 07/3

-I ll '.,; .. ** Part E. Radiological Impact on Man* The calculated individual doses in this section are based on actual locations of nearby residents and farms. The population dose impact is based on historical site cific data i.e., food production, milk production, feed for milch animals and seafood production.

The doses were* calculated, using methods described in* ulatory Guide T.109 and represent calculations for the six month reporting interval.

Doses.from batch and continuous releases were calculated using the meteorological sion coefficient X/Q for the six month reporting interval.

Liquid Pathways Doses to individuals in the population from liquid leases are primarily from the seafood ingestion pathway. The total body dose to an individual was calculated to be

• mrem. The calculated population total body dose was . * * * -., person-rem.

The highest organ dose from liquid -rel.eases-w"as

• mrem to the-gasti"ointestinal "tract *. Air Pathways The resulting whole body and skin doses to an individual were calculated to be ** mrem and ** mrem respectively.

The calculated population total body dose was ** person-rem.

The average total body dose to the population within fifty miles of the site was ** mrem/person.

Direct Radiation

_Direct radiation may be estimated by TLD measurements.

One method for comparing TLD measurements is by comparison with preoperational TLD measurements.

on site near the Service Water pumps (location llSl) and near the culating Water pumps (location 1051) averaged 9. 05 and 6.48 mrads/months, respectively, apparently due to trace activity in the Refueling .Water. Storage Tank. TLD' s at onsi te location_s 2S2 and 5Sl which are 0. 3 miles and O. 9 mi;Les from the reactor containment, averaged 4. 23 and 4.59 mrads/month,respectively.

The values for tions 2Sl and 5Sl are within the statistical variation associated with the preoperation program results. **Tabulation*

of liquid releases were not available at the time the report was prepared * **To be supplied later_. M P80 17 14

' -f All offsite monitoring locations remained within preoperational ranges. It should be noted that* the nearest resident is 3.5 miles away *. It can thus be concluded that there was no measurable dose to any offsite locations from direct radiation.

Part F. Meteorological Data .Cwnulative joint wind frequency distribution by pheric stability class at the 300 foot elevation is vided for the third and fourth quarters of 1982 as Table 5 and 6. -M P80 17.14 1/2 -Ba-**.*

TABLE l EFFLUENT AND WASTE pISPOSAL SE NUAL REPORT (1982) GASEOUS EFFLUENTS-SUMMATION OF ALL UNIT 1 Unit 3rd Quarter

• A. Fission & Activ.ation Gases 1. Total release ci

• 2. Average *release rate for period uci/sec.

• 3. Percent of technical specification limit % * (See ETS Spec. 2.3.3.b) B. Iodines I. Total iodine-131 Ci

• 2. Average release rate* for period* uci/sec.

• 3. Percent of 'technical specif icat:ion (2Ci) limit %

• c. Particulates

1. Particulates with half-lives>

8 days Ci

• 2. Average release rate for period uCi/sec.

• 3. Percent of technical specification limit %

• 4. Gross alpha radioactivity (2) ci D. Tritium 1. Total release Cl 2. Average release rate for period uci/sec. 3. Percent of technical specification.limit

% N/A ( 1) *For batch releases the .estimated overall error is within 10%. ( 2) Analyses indicate no measurable alpha emitting transuranics.

• To be supplied later. M P8014/23 1 9-A 4th Quarter * * * * * * * * *

• N/A ** Est.Total(l)

Error % 2.SOE+Ol 2.SOE+Ol 2.SOE+Ol 2.SOE+Ol ' .*' I 1 I TABLE lA EFFLUENT AND WASTE DISPOSAL S_E GASEOUS EFFLUENTS-SUMMATION UNIT 2 . . . . . UAL REPORT (1982) OF ALL RELEASES Unit 3rd Quarter A. Fission & Activation Gases B. c. D. 1. Total release Ci 2. Average release rate for period 'uci/sec.

3. Percent of technical specification limit % (See ETS Spec. 2.3.3.b) Iodines I. Total iod ine-131 Ci 2. Avera e release rate for*period uci/sec.

• Percent 0 tee nica speci 1cat1on 1m1 % Particulates I. Particulates witfi fialf-lives>

8 days ci 2. Average release rate for period uci/sec. 3. Percent of £eciinicaI specification limit-% 4. Gross alpha radioactivity . . Ci Tritium ' .. : ... I. Tota I release ci Avera e release rate ror*perioa uci7sec. 3. Percent 0 tee nical speci 1cat1on 1m1t % ( 1) For batch releases the estimated overall error is within 10%. *To be supplied later. M P8014/23 2 9-B * * * * * * * * * * * . -. 5th Quarter * * * * * * * * * * * .. / Est.Total(!)

Error % 2.SOE+Ol 2.SOE+Ol 2.SOE+Ol -

I I I . Nuclides Released 1. Fission gases Krypton-85 Krypton-85m Krypton-87 Krypton-88 Xenon-133 Xenon-135 Xenon-135m Xenon-8 Xenon-133m

• Argon-Fluorine-18 XE-13lm Total for period 2. Iodines Iodine-131 Iodine-133 Iodine-135 Total for period *To be supplied later. M P80 14/20 1 .TABLE lB-1 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL RE*PORT ( 1982) GASEOUS EFFLUENTS**ELEVATED RELEASES UNIT 1 CONTINUOUS . MODE*. . BATCH MODE* Unit Ci Ci Ci Ci Ci Ci Ci .Ci Ci .Ci Ci Ci Ci 0 F F R oR > ....... : Ci Ci C1 Ci 3rd Quarter -...... *10-A 4th Quarter 3rd Quarter 4th Quarter . . * ' l

• To be supplied later. M P8014/20 2 *

---

• Nuclides Released*

1. Fission gases Krypton-BS Krypton-85m Krypton-87 Krypton-88 Xenon-133 Xenon.!.135 Xenon-13sm Xenon-138 Xenon-133m Argon-Fluorine-18 Xenon -l3lm Total for period 2. Iodines Iodine..;.131 Iod ine-133 Iodine-135 Total for period *To be supplied later. M P80 14/24 l L_ ,, 1, ) ' TABLE.lB-2 EFFLUENT 'AND WASTE DISPOSAL SEMIANNUAL REPORT ( 1982) GASEOUS EFFLUENTS-ELEVATED RELEASES UNIT. 2 CONTINUOUS MODE* BATCH MODE* Unit *Ci Ci *Ci *Ci Ci Ci , Ci Ci Ci. Ci ci Ci* Ci ci Ci 3rd Quarter 11-A 4th Quarter 3rd Quarter 4th Quarter r -,

EFFLUENT Nuclides Released*

3. Particulates.

., TABLE lB-: AND WASTE DISPOSAL SEMIANNUAL REPORT .GASEOUS EFFLUENTS-ELEVATED RELEASES (Continued)

Unit 2 UNIT 2 CONTINUOUS MODE* 3rd Quarter 4th Qua.rter (1982) BATCH MODE*.* 3rd Quarter *4th Quarter u ' < I -l Manganese-54 Ci Cobalt-58 ci Cobalt-GO Ci Iron-59 Ci Rubidium-88 C1 Yttrium-88 Ci Stront1um-89 C1 Stront1um-90 Ci Niobium-95 ci Zirconium-95 Ci Sr-85 C1 Cesium-134 Ci Ces1um-137 Ci Cer1um-139 Ci Gross Alpha Ci Total For Period Ci 4. Tritium Tritium Ci .*.* *To be supplied later. M P80 14/24 2 11-B

-. ' TABLE lC EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT 1982 UNITS.I AND 2 GASEOUS EFFLUENTS-GROUND-LEVEL RELEASES Nuclides Ieleases Unit 3rd Quarter 4th Quarter 3rd Quarter 4th Quarter '!here were no ground level releases for the period of record.

• J M P80 18 05/3 *

• • ' ** TABLE 2A-l EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1982) UNIT l LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES A. Fission and activation products 1. Total release (not .including tritium, g:ases, alpha) 2. Average diluted concentration during period 3. Percent of applicable limits of Technical Specifications B. Tritium . Total release Average diluted concentration during period

• J 3

• Percent of applicable limit c. Dissolved and entrained gases l . Total release 2. Average diluted concentration during period 3. Percent of applicable limit D. Gross alpha radioactivity

1. Total release E. Volume of waste release (prior to dilution -Batch Release) F. Volume of dilution water used during period -Batch Release N/A -Not Applicable

• To be supplied later 3rd Units Quarter Ci

• uCi/ml * %

• Ci

• uCi/ml * % Ci

• uCi/ml * % Ci

• liters 5.09E+06 liters 3. 51E+09 M*P81 3 07/2 13-A 4th Quarter * * * ** * *' *

• 5.03E+06 3.77E+09 Est. Total Error, % 2.SOE+Ol . 2. SOE+Ol 2.SOE+Ol 2. SOE+Ol

.. --TABLE 2A-2 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1982) UNIT 2 LIQUID EFFLUENTS-SUMMATION OF ALL RELEASES A. Fission and activation products l. TotaL :release (not including tritium, gases, alpha) 2. Average diluted concentration during period 3. Percent of applicable limits of Technical Specifications Tritium Total release Average diluted concentration during period --3 . Percent of applicable limit c. Dissolved and entrained gases 1. Total release 2. Average diluted concentration during period 3. Percent of applicable limit D. Gross alpha radioactivity

1. Total release E. Volume of waste release (prior to dilution -Batch Release) F. Volume of dilution water used during period -Batch Release N/A -Not Applicable

-*be supplied later 3rd Units Quarter Ci

• uCi/ml * %

• Ci

• uCi/ml * % N/A Ci

• uCi/ml * % N/A Ci

• liters

• liters

• M P81 3 07/l 13-B 4th Quarter * * * *

• N/A. *

• N/A

• 5.61E+06 3. 78E+09 Est. Total Error, % 2. SOE+OI 2.SOE+Ol 2.SOE+Ol 2.SOE+Ol 2.SOE+Ol

........ -( TABLE 2B-l EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT (1982) LIQUID EFFLUENTS UNIT 1* Nuclides Released Strontium-89 Strontium-90 Cesium-134 c*esium-137 Iodine-131 Iodine-132 Iodine-133 Iodine-134 Iodine-135 Cobalt-58 Cobalt-60 hromium-51 Cesium-136 Zirconium-95 Tin-113 Barium-140 Lanthanum-140 Cerium-139 Cerium:...141 .

• Tungsten-187 .Niobium-95

• Antimony-124 Antimony-125 Tritium Iron-59 Sodium-24 Silver-llOm Total for period excluding H3 Xenon-133m

.. Xenon-133 Xenon-135 on-41 (above) *To be supplied later. M.P81 47 04/1-srd .CONTINUOUS MODE Unit 3rd Quarter Ci Ci Ci Ci Ci Ci Cl Ci Ci Ci* Ci Ci Ci Ci Ci Ci Ci Ci Ci Ci . Ci Ci * ---Ci *Ci Ci Ci Ci Ci Ci Ci Ci Ci Ci ci 14-1\ 4th Quarter BATCH MODE 3rd Quarter 4th Quarter TABLE 2B-2 EFFLUENT AND WASTE DISPOSAL SEMIANNUAL REPORT ( 1982)

• LIQUID EFFLUENTS UNIT 2* CONTINUOUS MODE. Nucli.des Released.

3rd .. Unit. . Quarter Strontium-89 Ci Strontium-90 Ci Cesium-134 Ci Cesium-137 Ci Iodine-131 Ci Iodine-132 Ci Iodine-133 Ci Cobalt-58 Ci Cobalt-60 Ci Cadmiurn-109 Ci Manganese-54 Ci Chromium-51 Ci rium-141 Ci i -95 Ci Tin-113 Ci ' .::_ Barium-140 Ci Lanthanum-140 Ci Cerium-134_

Ci Mercury-203 Ci Niobium-95 Ci .Antimony-124

• Ci Antirnony-125 Ci Tritium Ci

• Iron-59 Ci Sodium-24 Ci Tellerium-125m Ci Ci Total for period (above) excluding H3 Ci Xenon-133m Ci Xenon-133 Ci Xenon-135 Ci Krypton-88 Ci Argon-41 Ci later. M .. P81 4 7 04/2 14-B 4th Quarter. .*BATCH MODE 3rd Quarter. 4th Quarter i_ .. TABLE 3 EFFLUENT AND WASTE.DISPOSAL SEMIANNUAL REPORT 1982 JULY -DECEMBER 1982 UNITS 1 AND 2 SOLID WASTE AND IRRADIATED FUEL SHIPMENTS A. SOLID 'WASTE SHIPPED OFFSITE FOR BURIAL OR DISPOSAL (Not irradiated fuel) 1. Type of waste a *. spent resins, filters sludges, evaporator bottoms b. Dry compressible waste, ** contaminated equip. c. Irradiated components, control rods, d. Others .(describe)

Units m3 Ci m3 Ci m3 Ci m3 Ci 6-month Est. Total Period Error, % l.75E+02 l.05E+02 7.63E+02 3.58E+OO O.OOE+OO O.OOE+OO O.bOE+OO O.OOE+OO 1. 50E+o1

• l.50E+Ol . Estimate of major nuclide composition (by type of waste) a. Cobalt -58 79.9% 8.4E+Ol ---Cobalt -60 12.4% l.3E+Ol Manganese

-54 3.0% 3.2E+OO Cesium -134 -2.5% 2.6E+OO Cesium -137 2.2% 2.3E+OO b. Cobalt -58 79.9% 2.90E+OO Cobalt -60 12.4% 0.44E+OO Manganese

-54 3.0% o.11E+oo*

Cesium -134 2.5% 0.09E+OO Cesium -137 0.08E+OO 3. Solid Waste Disposition Number of Shipments Mode of Transportation Destination 37 Truck

• 13 Truck RRADIATED FUEL SHIPMENTS

.(Disposition)

Barnwell, South Carolina Hanford , Wash. Number of Shipments Mode Destination None N/A

• N/A M P80 14/21 1

• . -* TABLE 4A-l SALEM NUCLEAR GENERATING STATION (1982) UNIT 1

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY lo Dates July 1 September 30, 1982 2. Type of release (Gas) 3o Number of releases during the 1st Quarter 6.0E+OO 4. Total time duration for all releases of type listed above 2.63E+02 minutes s. Maximum duration for releases of type listed above 6.00E+Ol minutes 6. Average duration for all releases of type listed above 4.39E+Ol 7. 8. *minutes Minimum duration for release of type* listed.above 2.93E+Ol minutes For *1iquid batch releases only, *provide the average stream flow (dilution flow) during the period of release. N/A M P80 lS 30/l 16-A

-' > -* TABLE 4A-2 SALEM NUCLEAR GENERATING STATION (1982) UNIT 2

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY 1. Dates July 1 -September 30, 1982 2. *Type of release (Gas). 3. Number of releases during the 1st Quarter. 9.00E+O 4. Total time duration for all releases of type listed above 1. 42E-:+-03 minutes s.

• Maximum dqration for of type listed above 3.10E+02 *

• minutes 6. Average duration for all releases of type listed above l.58E+02 minutes 7. Minimum duration for release of type listed above l.;l2E+02 minutes 8. For liquid batch releases only, provide the *average stream flow (dilution flow) during the period of. release. N/A M P80 15 42/l 16-B

.. TABLE 4A-l (Cont'd) SALEM NUCLEAR GENERATING STATION (1982) UNIT 1

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY 1. Dates October 1 -December 31, 1982 2o Type of release (Gas) 3. Number of releases during the 2nd Quarter 6.0E+OO 4. Total* time duration for all releases of type listed above 5.08E+03 minutes 5. Maximum duration for releases of type listed above l.13E+O 3 minutes 6. Average duration for all releases of type listed above 8.46E+02 minutes Minimum duration for release of type listed above 5.64E+02 minutes For liquid batch releases only, provide the average stream flow (dilution flow) during the_period of release. N/A M P80 15 30 1/2 17-A

<-I -' TABLE 4A-2 (Cont'd) SALEM NUCLEAR GENERATING STATION (1982) UNIT 2

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY 1. Dates October 1 -December 31, 1982 2. Type of *release (Gas) 3. Number of releases during the 2nd Quarter S.OE+OO ** 4. Total time duration for all releases of type listed above S.30E+02 minutes s. Maximum duration for releases of type listed above l.10E+02 minute*s 6. Average duration for all releases of type listed above l.06E+02 minutes 7. Minimum duration for release of type above l.02E+02 -,,. minutes So For liquid batch releases only, provide the average stream flow (dilution flow) du+ing the period of release. N/A M P80 15 44/1 17-B

) -* -TABLE 4B-l SALEM NUCLEAR GENERATING STATION (1982) UNIT l

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED

• IN A BATCH MODE BATCH RELEASES ONLY 1. Dates July 1 -September 30, 1982 2. Type of release (Liquid) 3. Number of releases during the 3rd Quarter 7.90+01 4. Total time duration for all releases of type listed above 1. 63E+04 s. 60 7. 8. minutes Maximum duration for releases of type listed above 4.33E+02 minutes Average duration for all releases of type listed above 2.07E+02 minutes Minimum duration for release of type fisted above l.6SE+o2*

minutes . . For liquid batch releases only, provide the average stream flow (dilution flow) during the period of release.

gpm M P81 3 06/1-mw 18-A

-*--TABLE 4B-2 SALEM NUCLEAR GENERATING STATION (1982) UNIT 2

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY l. Dates July l -September 30, 1982 2. Type of release (Liquid) 3. Number of releases during the 3rd. Quarter 6.90+01 4. Total time duration for all releases of type listed above l.39E+04 s. 6. 7. .. 8. minutes* Maximum duration for releases of type listed above 3.44E+02 minutes Average duration for all releases of type listed above 2.02E+02 minutes Minimum duration*

for release of type 11sted above l.65E+02 minutes For liquid batch releases only, provide the average sfream flow (dilution flow) during the period of release. 2.12E+OS gpm M P81 3 06/2-mw 18-B

.. *.* . --.I . :*;,* .. * . .;. ,.r: . *_ --* TABLE 4B-1 (Cont'd) SALEM NUCLEAR GENERATING STATION (1982) UNIT l

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY 1. Dates October 1 -December 31, 1982 2. Type of release (Liquid) 3. Number of.releases during the 4th Quarter 7.90E+Ol 4. Tcital time duration for all releases of type listed above l.64E+04 minutes s. Maximum duration for releases of type listed above 8.18E+02 minutes 6. Average duration for all releases of type listed above* 2.07E+02 minutes 7o Minimum duration for release of -type liste*d above l.36E+02 minutes 80 For liquid batch releases only, provide the average stream flow (dilution flow) during _the period of release gpm M P81 3 05/l 19-A

-' ' -* '*' . . , TABLE 4B-2 (Cont'd) SALEM NUCLEAR GENERATING STATION (1982) UNIT 2

SUMMARY

SHEET FOR RADIOACTIVE EFFLUENTS RELEASED IN A BATCH MODE BATCH RELEASES ONLY 1. Dates October l -December 31, 1982 2. Type of release (Liquid) 3. Number of releases during the 4th Quarter.8.8E+Ol

4. Total time duration for all releases of type listed above l.83E+04 minutes s. Maximum duration for releases of type listed above 4.23E+02 minutes 6. Average duration for all releases of type listed above 2.08E+02 7. a. minutes Minimum duration for release of type listed above l.65E+02 minutes For liquid batch releases only, provide the average stream flow (dilution flow) du.ring the period of release 2. 06E+OS

• gpm M P81 3 0_5/2 19-B

.. ARTIFICIAL ISLAND 1*3 DIRECTION SUH PERCF.Nt N 0 o.o NNE 0 o,o NE 0 o.o ENE (I o,o E 0 1),0 ESE 0 o.o SE 0 o.o SSE 0 0, I) .. s 0 0,0 SSW 0 o.o SW 0 o,o WSW 0 0,0 w 0 o,o WNW 0 o.o NW Cl o,o NNW 0 o.o ...... ... 0 o,o HEAN WIND SPEED 0,0 CALH HOURS 0 PERCENT CAL11 *I o,o HISSING 0 ** ........ *JOINT DISTRIBUTION OF WINO DIR!CTION ANO SP!!O 4*7 SUH PERCENT 0 0. I'\ 0 o.o 0 o.o 0 0. () 0 o,o 0 o.o I) o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o,o. 0 o,o ' ., 1 . 0 o,o LOCAUOr.I lOOFT SPEEOS(Ht/HRJ 6*12 13*18 PERCENT su11 PERCENT 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 .n o,o 0 o,o 0 o.o 0 o,o 0 o.o 0 o.o 0 0,0 0 0,0 0 o .* o 0 o,o 0 o,o 0 0,0 0 o,o 0 o,o 0 0,0 0 o,o 0 0,0 0 TABLE 5 PAGE 1 of 8 0. () o.o o.o o,o o.o 0,0 o,o o.o 0,0 o,o o,o o,o o.o o,o n,o o.o n.!'I lll*Z4 au11 PERCENT 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o,o 0 o,o .. ., I ' . . . '*-( ,* DEG Cll0011 LAPSE RATE (300 .. lOP'TJ LE*l ,4' CLASS A ZS Pt.US SUH P!RC!NT SUM *l'!AC!NT 0 *o,o 0 o.o 0 o,o 0 *o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o.o e 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o,o 0 *0 1 0 0 o,o *o o,o 0 o,o 0 o,o 0 o,o n o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,.o 0 o,o e ARTIFICIAL ISLAND I. 1 *3 DIRECTION SUM PERCENT N 0 o,o NNE 0 0,0 NE 0 0,0 ENE 0 o,o E 0 0,0 ESE 0 o.o SE 0 n.o SSE 0 0,0 s 0 0,0 SSW 0 o,o SW 0 o.o WSW 0 0,0 w 0 o,o WNW 0 0,0 NW 0 0,0 NNW 0 o.o ** ;"1"' *""""'-**

0 o.o MEAN WIND SPEED '2. l CALM HOURS 0 PERCENT CALM . \ 0,0 MISSING 0 /.,1 JOINT DISTRIBUTION OF WINO OIR!CTION AND 9PEEO 11 .. 1 SUH PERCENT 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o I) o.o 0 o.o 0 0,0 2 I l 0 0,0 0 o,o 0 o,o 0 o.o 0 o,o --2 ,* 1 LOCA UON 300FT SPEEDS C11IIHRJ 8*12 l3*l e SUH PERCENT SU'1 PERCENT 0 0 0 0 0 0 0 2 0 1 l l 0 0 0 0 '* 5 0,0 0 o,o 0 o,o 0 o,o 0 0,0 0 o,o 0 o,o 0 I l 0 0,0 0 ,o 0 .* 0 0 ,o 0 0,0 3 o,o 0 o,o 0 o.o 0 :

• 2 3 TABLE 5 PAGE 2 of 8 0, I) 0,0 0,0 0,0 0,0 n.o o.o 0,0 n,o o.o o.o 0,0 I i o,o 0,0 0,0

• l l9*i4 SUM *PERCENT 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 0,0 1 .o (I 0,0 0 o.o 0 o.o 0 o,o 0 0,0 0 0,0 0 o,o 0 o,o 0 0,0 l ,o DEG CllOOM LAPSE UT! (300*30FT)

• l,81 *l,7 CLASS 25 Pt.US SUH PERC!NT SU'4 PERC!NT 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o.o -0 o,o 0 o,o 0 o.o 0 o,o I) o,o l ,o 0 o,o 2

• l 0 o,o 0 o,o 0 010 1 ,o 0 o,o 3 I l 0 o,o l ,o 0 o,o. 3 I l 0 o,o 0 o,o 0 o,o 0 o,o 0 OiO 0 o,o 0 o,o l 1 *' e

" ' ' I lATIFlCIAL ISLlNO l*l DIRECTION SUH PERCENT. N 0 o.o NNE 0 o.o NE . 0 o.o ENE 0 l'I, 0 E 0 o.o ESE 0 o.o SE 0 o.o SSE 0 n.o s 0 o,o SSW 0 o,o sw 0 o,o wsw 0 o.o w 0 o.o WNW 0 0,0 Nlo/ 0 o.o NNW 0 o.o ,., ... 0 (I. 0 MEAN wINO SPEED 12.ri CALM HOURS 0 PERCENT CALM . ' o.o HISSING 0 i '* .. *JOINT DISTRIBUTION OF HIND DIRECTION AND SPEED 4*1 SU14 PERCENT 0 o.o () o.o 0 o.o 0 o,o 0 o,o 0 o.o 0 o.o 0 0,0 0 o.o 2

• l 2

• l I .o 0 o.o 0 o.o ('I o,o 0 o.o ' ,, '5 .2 LDCAqON :SOOl"T SPEEDS(MllHRJ 8*12 ll*l8 l'UM PERCENT SU'4 PERCENT 0 0 0 o* 0 0 ! " 0 l 0 ] 0 0 0 *0 ll o,o l 0,0 0 0,0 0 o,o 0 o.o 0 o.o 0 .1 l ,2 i! o.o 0 ,o 0 o,o 0 I l l o,o ' a.o 0 o,a 0 a,o 1 o5 f TABLE 5 PAGE '3 of 8 .o o.o o.o 0,0 0,0 o.o .o ' I o.o o.o o.o .o ,o a.a 0,0 ,a ,3 19*24 llUH P!RCENT 0 o,o 0 o.o 0 o.o 0 o,o 0 0,0 n o,o "

• i! 0 o,o 0 o.o 0 o.o I .o 0 o,o 2

• l n o,o 0 o,o l'l o.o 1 * :s I DEG C/lOOH LAPSE RATE (]OO*lOFT)

• l,6/ *l,5 CLASS C 25 PLUS SUH PERCENT SU14 PERCENT 0 o.o l .o 0 o.o 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o e 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 6 .11 0 o,o 6 .! 0 o,o 0 o.o 0 o.o ]

• l 0 o.o ] I I 0 o.o !5 .2 0 o.o ] .1 0 o.o 0 o.o 0 o,o 0 o,o a o,a l .o 0 o,o !O 1,5 e

. ' * . *.'-.**.*

ARTIFICIAL ISLAND DIRECTION SUM PERCENT N \ ,o NNE 0 o.o NE i!

• l ENE 2 I 1 E 0 o,o ESE f') o,o SE 0 o.o SSE 5 ,2 s 3

• l SSW l ,o SW 0 o.o WSW 0 o.o w 2

• l WNW 0 o,o NW t ,0 NNW 0 o.o 17 I II , MEAN l'IIND SPEED 11. 8 CALH HOURS 0 PERCENT CALM o.o MISSING &3 l* JOINT DISTRIBUTION OF WINO DIRECTION ANO SPEED 11.7 SUH PERCENT tl ,5 9 I 4 11 ,2 6 ,3 1 .* 3 0 o,o 6 i3 i! l l, 0 i! 1 l, 0 17 I II 30 1,5 15 . ., 6 ,3 3

• I 13 ,& 8 . " ' --1. 117 8,8 LOCATION SPEEDS (HIIHRJ 8*12 l3*lll SUH PERCENT su11 PERCENT 28 i! l 13 T 3 0 11 16 13 i! l 30 22 22 i!O l3 31 ;!64 1,11 i!O l,O 19 ,& 18 ,3 5 ,l 0 o,o 2 Ii! 3T ,8 47 I fl 2f>> .1,0 22 .l, 5 25 l I l 10 1 I 1 i! i! i.o ' 10

• fl u 1.5 Ii! 13,2 291 TABLE 5 PAGE 4 of 8 t,O *" ,9 Ii! o,o .* l l .11 i! I) l,3 \. l l,2 *' I I 1 .5 . " ,6 lll,5 l9*2Q 8Ul1 l!'ERCENT

' ,2 l ,o 0 o,o 0 o,o 0 0,0 0 o,o 18 ,9 u ** q ,4 II ,4 5

• i! ' ,2 q ,II 0 o,o 0 o,o I) o.o TZ J,6 (. DEG C/10011 LAPSE RATE (lOO*lOFT)

• l.41 *0 0 5 CLASS D 25 PLUS SUH PERCENT SUP1 PERCENT 0 I). 0 &5 3,i! 0 o,o 50 2,5 0 o,o 37 \,8 0 o.o 20 l,O e 0 o,o lO .s 0 o,o 2

• 1 i! il &1 3,3 0 o,o 101 5,0 2 .. l 14 3,7 0 010 69 3,4 0. o,o 90 4,5 0 o,o 52 i! I 6 z , l 63 3 .1 2 , l 35 1,1 l ,o 44 j! Ii! 0 o,o 51 2 I 5 q ,4 830 41,4 e

• l

• ARTIFICIAL ISLAND 7182*q/112 1*3 DIRECTION SUH PERCENT N II ,2 NNE ,, ,3 NE* 0 D,0 ENE 2

• l E 2 I l ESE 2 I 1 SE 1 ,o SSE 9 ,II s 11 .2 SSW 0 n,o SW 1 ,o WSW i!

• l w P.

• l WNW. 1 ,o NW 2

• l NNW I .o , .........

39 1,9 HEAN WINO SPEED 12.1 CALH HOURS l ...... PERCENT CALH . \ ,o MISSING 311 ' ' .. . 'JOINT DISTRIBUTION OF WINO DIRECTION ANO 8P!EO 11.1 SUH PERCENT 1' ,5 5 .2 *10 ,5 5 ,i! l '5 I 1 II ,2 1 ,3 10 ,5 ll ,5 q I /J 14 ,7 13

• fl 111 ,1 II

• Cl ., .3 11 .s . -* l 511 ., I 1 LOCATION JOOP:T SPEEOS(HIIHRJ 8* l i! 13*18 llUH PERCENT SUM P!RCENT l] 20 23 13' 1 fi Ci 21 2q 29 23 33 23 20 i!ll 15 3111 *' 20 l,O 27 l I l 21 *' ,,

• ll " ,2 II 1,0 9 l I II C!J l 1 11 28 I I 1 &3 1,6 31 .11 24 l

• 1 18 l,O 10 1.2 23 o1 11 15,T JQO TABLE 5 PAGE 5 of 8 'I 0 1,3 1.3 I ::s .2 .2 *" l

• 1 l,4 3,l 1 .11 l,2 ,9 * '5 1

• l ,8 11,0 l9*2Q IUM P!RC!NT 20 l,O I ,o 9 *" ,, ,J 0 o,o 0 o,o ,, ,J 4 ,2 lll ,9 2T l,J l fi ,8 l ,o 1 I J . 0 o,o q ,4 ] Q l l i!1 6,3 ... DEG C/10014 LAPSE RATE (lOO*lOl'T)

• O,Q/ l,!1 CLASS E i!5 PLUS SUH P!RC!NT IU'1 PEAC!NT II *" H J,11 0 o,o 59 2,9 0 o,o u .J *" 0 n,o 32 l * ,, e 2 ,l H l,9 a , l u , II 2 , l "" 2,1 .2 I l 17 3,8 l ,o 91 11,5 0 o,o 122 6 I 1 0 o,o 101 5,0 0 o,o "6 2,4 0 o,o 64 3,2 0 *o,o H 1,9 ] , l 68 3,Q ::s I l so 2,5 23 l

• l 991 49, II e

. ) '-i o' TABLE 5 PAGE .6 of 8 -* l

• f -

" ARTIFICIAL ISLAND t-3 DIRECTION SUM PERCENT N 0 o.o NNE 0 o.o NE 0 o.o ENE 0 o,o E 0 n.o ESE ('I 0,0 SE 0 0,0 SSE ('I 0,0 s 0 0,0 SSW 0 ('I, 0 SW 0 0,0 WSW 0 0,0 w 0 n,o WNW 0 o.o NW ('I o.o NNW 0 o.o ?o.-.. -c* . .:., 0 n. o MEAN WIND SPEED o,o CALM HOURS 0 PERCENT CALH . ' o,o MISSING 0 * ' '. .... .,, JOINT DlSTRiBUTtON OF WIND DIRECTION ANO SP!EO 4*7 SUM PERCENT 0 o,o 0 o.o 0 o,o 0 o,o 0 o,o 0 o.o 0 o.o 0 0,0 0 o,o 0 o.o I] o,o 0 0,0 0 o.o 0 0,0 0 0,0 0 o.o --.. 0 o,o LOCAHON 300FT SPEEOS(HI/HRJ 8*12 13*18 SUH PERCENT SUH PERCENT 0 0 0 I)' 0 0 0 0 0 0 0 0 0 0 0 0 0 o,o 0 o,o 0 o.o 0 0,0 0 o,o 0 o,o 0 0,0 0 0,0 0 o,o 0 0,0 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 TABLE 5 PAGE 7 of 8 n. o 0,0 o.o o,o 0, It 0,0 o.o o.o o.o o.o o,o o.o o.o 0,0 o,o o.o OiO lCJ*a4 SUM PERCENT 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o 0 o.o 0 o.o 0 o.o 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o.o 0 o.o 0 o.o 0 o.o ' ' ""I ' . : r

• DEG C/tOOM LAPSE RATE ClOO*lOFT)

GT, 4 1 0 CLASS G 25 PLUS SUH PERCENT SUM PERCENT 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o e 0 o,o 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o.o 0 o,o 0 I) I 0 0 o,o 0 o,o 0 0,0 0 o,o 0 o,o 0 OiO 0 o,o 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o,o 0 o,o a o.o 0 o,o 0 o,o e

.. , ' r

• ARTIFICIAL ISLANO I ,. l ;.3 1* DIRECTION SUH PERCF.NT N 5 ,i! NNE 6 ,3 t-JE i! I l ENE Q

• 2 E i! I l ESE 11

• 2 SE I .o SSE 15 ,T . s T ,3 .. SSW i! . \ SW l .o WSW 3

• I w 6 I] WNW I I() NW 3

• I I .n 63 3,1 HEAN WINO SPEED Ii!, 3 , I TOTIL NUMBER OF CALM

' ) *1 * 'r JOINT DISTRIBUTION OF WJNO DIRECTION AND SPEED 11*7 SUH PERCENT i!3 l I , 14 ,7 15 ,7 ltl ,T i!O i., 2 4

• 2 IG *" 35 1,7 33 l.& i!8 l, II 4q i!. Cl 29 1,a i! l 1. 0 ll .s i!O l,O i! l 1.0 --.. 355 I PERCENT LOcAT;IoN 300FT SPEEOS(11I/HRJ 8*12 u .. 19 SUM PERCENT SUM PERCENT 51 Ill J9 22 19 a 3i! 5& Ill 111 64 34 47 CIS 39 50 635 .o i! I 5 !10 j! I '5 i!. l 6' 3,0 l,9 14q 2, 11 I

• l 13

• 6 ,9 II ,2 ,2 T ,3 I,& 111 2,3 i!. 8 T 5 3,T i!,I 55 i! 'T i!.] 85 4,i! .l.i! 6i! 3 .1 l.7 311 l,9 i!. 3 118 i! *a i!. i! i!O 1.0 '*' 39 '*' i! I 5 39 l,9 31,T 691 34,'5 TABLE 5 PAGE 8 of 8 19*i!4 SUM PERCENT i!,, 1,3 ! ,a 10 .s T ,3 0 o,o 0 o.o 29 '*" I& ,8 i!7 l,l 3T l,8 i!] l, l fl ,3 19 ,9 0 0,0 ll ,5 T ,3 i!i!3 ll, l * * ,, . .., F I r .. , DEG C/lOOH LAPSE OTE (300*30FT)

ALL STABILITIES 25 PLUS SUH PERCENT SUM l'ERCENT 8 I 4 l 63 8,l 0 o,o in Ii. 4 0 o,o 115 :!

• T 0 *o,o 60 3,0 e i! , l !I l *ii. !I i! , l i!l 1,0 4 Ii! l i!T 6 I 3 i! *' l qq 9,q ] *' 1&8 814 i! i l i!OI 10,0 0 o,o 199 9,q 0 o,o 110 5,5 i! .1 143 1,1 i! .1 19 3,q 4

• i! 11 & 5,8 4 ,z 121 6. 0 ' 3'5 1,T i!OOi! 100,0 HISSING HOURS i!05 e

'" y I \.j

• ARTIFICIAL ISLAND IOl8l*ll18l 1*3 OlRECTION SUH PERCENt* N 0 o,o NNE 0 0,0 NE 0 o.o ENE 0 o,o E 0 o.o ESE 0 o,o SE 0 o,o SSE 0 l'),0 s 0 o,o ssw I) o.o SIOf 0 0,0 WSW 0 o.o l>I 0 o,o WNW n o.o NW 0 o.o NNW 0 o.o 0 0,0 MEAN l>llND SPEED 15,2 CALl1 t40UIU 0 PERCENT CALM . ' o.o 111SSING 0 '* ; ., .. * ,.. JOINT DISTRISUTIUN OF WINO ANO SPEED 11*1 SUH PERCENT 0 o,o 0. o,o 0 o.o 0 o,o ' 0 o.o 0 o,o 0 o.o 0 o,o 0 0,0 0 o.o 0 o,o 0 0,0 0 o,o 0 o.o 0 o.n 0 o,o -* 0 o.o LOCA HON loon SPEEDS (111/HR) 8*12 ll* lll SUH PERCENT 8Ul1 PERCENT 0 0 0 o* 0 0 0 0 0 0 0 0 0 l 1 0 ,. 2 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 0 ,o . 0 o,o 0 o.o 0 0,0 0 o.o 0 o,o 0 o,o 0 o.o 0

• 1 0 .1 2 o.o 0 ol 2 TABLE 6 PAGE 1 of 8 o,o o.o o.n. 0,0 o,o o,o 0,0 o.o o.o o.o o.o o.o o.o 0,0

• l o,o .1 19*211 SU'4 PERCENT 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o 0 o,o 0 0,0 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 2

• l 2

• l ..... ' : ,, DEG Cll0011 LAPSE RATE (lOO*lOP"T>

LE*l ,9 CLASS A es PLUS SU11 PERCENT llUM PERCENT n o.o 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o e 0 o,o 0 o.o 0 o,o 0 o,o 0 I) I 0 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 o,o 0 ...... o,o 0 o,o "f*"' 0 o,o l

• 1 0 o,o 3 .2 0 o,o 2

• 1 0 o,o b ,3 e

./' '-!_ i. 1 ISLAND 10182*12182 1*3 DIRECTION SUH N 0 o.o NNE 0 0,0 NE 0 Cl. 0 ENE 0 o,o E 0 o,o ESE 0 o,o SE 0 o,o SSE 0 o,o s* 0 0,0 SSW 0 0,0 SW 0 o,o WSW 0 0,0 w 0 o,o WNW 0 o.o NW 0 o.o NNW 0 o,o 0 o,o MEAN WIND SPEED 11, 8 CALM tiOURS 'I 0 PERCENT CALM o.o HISSING 0 .. ,_ ,,* JOINT DISTRIBUTION OF HIND DIRECTION ANO Cl*? SUH PERCENT 0 o,o 0 o,o 0 o.o 0 0,0 0 l I J 0 o,o I) o,o 0 o,o 0 o,o 0 o,o 0 o,,o 2 ' I 0 o,o 0 0,0 0 0,0 .. 3 I jl LOCATION 300FT SPEEDSCHllHRJ 8*12 13*18 SUH PERCENT SUM PERCENT 0 0 0 0 0 0 1 l 0 0 0 1 0 l *o 0 1. Cl o,o 2 o,o 0 o.o 0 o,o 0 o,o 0 o,o 0

• l 0

• 1 0 o,o 0 o,o 0 o,o 0 I 1 0 o,o 0 ' I 0 0,0 2 0,0 0 .2 u TABLE 6 PAGE 2 of. 8

• l 0,0 0,0 o,o 0,0 o.o 0,0 o.o n,o 0,0 0,0 o,o o,o o.o

• l 0,0 .2 l9*2CI SUM PERCENT 0 0 0 o.o 0 o,o 0 0,0 0 o,o 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o 0 o,o 0 0,0 0 o,o l

• t 0 o.o I

• l . / ..... { ... DEG Cl\OOH LAPSE RATE (300 .. 30FT> *l.8/ *l.T CLASS 8 25 PLUS SUH PERCENT SUH PERCENT 0 o.o 0 o,o 0 o.o 0 o.o e 0 o,o 0 o,o 0 o,o l ' I 0 o.o l

• 1 0 o,o l I I 0 o,o 0 o,o 0 o,o 0 o.o 0 o,o 0 o,o 0 o.o l .1 0 o,o 2

• l 0 o,o ' I 1 0 o,o 3 .2 0 O;O 0 o,o 0 o,o 12 ,T e

• --* , ..* ..,

-. J ,,,. ' ::. I (-.,_ *RTIFICIAL lSLANO JOINT DISTRIBUTION NINU DIRECTION LOCATION 300FT DEG CllOOM LAPSE RAT! CJ00*30FT)

• 1,6/ *l,5 CLASS C SPEEDS (HIIHRJ l*l a.7 8*12 13*18 l9*2Q 25 PLUS SUH PERCENT DIRECTION SUH PERCENT SUH PERCENT SUM PERCENT SUH PERCENT 8UP1 PERCENT SUH PERCENT N 0 0,0 0 O,O l ol 2 1 1 0 0,0 0 0 1 0 3 1 2 NNE 0 o,o l .1 0 o,o 0 0,0 0 o,o 0 n,o l .1 NE 0 0,0 0 0 1 0 0 O,O 0 0 0 0 O 0 0 0 O 0 1 0 0 0,0 ENE 0 o,t> 0 0 0 0 O* O,O 0 0 0 0 0 0,0 O O,O 0 O,O A E 0 0 0 0 0 O,O 0 0,0 0 0,0 0 0 0 0 0 o.o 0 0 1 0 '4llJ' ESE 0 0,0 0 O,O 0 O,O 0 0,0 o 0,0 0 0,0 0 O,O SE 0 0,0 0 0,0 0 0,0 1 .t 0 O,O O 0,0 l ,( SSE 0 0,0 0 o,o 0 0,0 0 0 0 0 0 O,O O 0,0 O o,o 5 0 o,o (') o,o 0 o,o 0 0,0 0 o,o 0 o,o 0 o,o ..* :.. SSW 0 0 0 0 0 0 1 0 0 0 1 0 0 0,0-0 O,O O 0,0 0 0,0 SW 0 0 1 0 0 0,0 0 0,0 l ,1 0 0 1 0 0 0,0 l ,l WSW 0 0,0 0 0,0 l ,l 0 0,0 2 1 1 l ,l 4 .2 w 0 0. 0 I

• l 0 0 I 0 0 0. 0 0 0

• 0 0 o_, 0 l o l WNW 0 0,0 0 0 1 0 0 0 1 0 2 ,t 0 0 1 0 0 0,0 2 ,l NW o o,o o o,n o o,o l .1 3 ,2 o o,o " ,2 NNw 0 O,O 0 0 1<' 0 0,0 3 0 2 0 0,0 0 0 1 0 3 1 2 *' "' I-t) o,o 2 .1 2 ,l 10 ,6 ,3 l ,l 20 1.1 MEAN WINO 'PEED 15,6 CALM kOURS 0 PERCENT CALM . , 0,0 HISSING l e TABLE 6 -.'.'."PAGE 3 of 8

.. * ') '" , .. t -:l, I..,.* '. __. .. , ARTIFICIAL ISLANO 10/82-12182 JOINT DISTRIBUTION OF WIND DIRECTION ANO SPEED LOCATION 300FT DEG C/10011 LAPSE RATE (300*lOFT>

• l,41 *0,5 CLASS 0 SPEEOS(HI/HRJ 1-3 11 .. 1 5 .. 12 13*18 19*241 25 PLUS SUM PERCENT OIQECTION SUP1 PfHCENT SUM PERCENT SUH PERCENT SUM PERCENT SUH PERCENT SUH PERCENT N 0 o.o 3 .2 15 ,;8 22 1.2 q NNE t

• I II .2 l 0 .& & .3 0 , NE 1 ' 1 II ,2 12 .1 6 .3 0 o.o 0 o,o 23 l,3 ENE 1

• l t .* l 3 .z 1 .1 0 o,o 0 o,o & .3 -E . 1

• 1 a i2 3 ,2 0 o.o 0 o.o 0 o.o 8 .s ESE l

• 1 l

• 1 0 0,0 0 o.o 0 o,o 0 o,o 2

• l SE I

• l 3 .2 6 ,3 7 ,a l

• l 0 o,o 18 1.0 SSE 0 0,0 l l .& q .s q .5 II ,2 0 o,o 33 1.ci S* " ,2 6

• 3 12 .1 18 l,O l *' .Q o.o 111 2,3 SSW 1

• I 1 ,II 10 . ,, 3 .2 A* ,2 0 o.o 25 1 *II sw 0 0,0 Q ,2 1 . *" *q ,2 l , l *o o,o 17 I , O WSW l

• l II .2 2

• l 5 ,J 0 .2 0 o,o l& ,CJ w 0 o,o II ,2 8 .s 8

• 5 . 8 ,5 0 o,o 28 1.& WNW 2

• 1 6 * .J 7 Q II q ,5 l" .s 8 *' II& 2.& NW l

• t 11 .2 t:S .1 5 .3 8 .s 10 ,6 41 2,3 NNll l

• l 1

• ll !1; .3 8 .5 '" .e II ,2 3CJ 2.2 *' I*

...

l& ,CJ 73 11. 1 122 69CJ ll l f,. 3 69 J.CJ 25 l ,;4 41 & 23.4 HEAN WIND SPEED 13 .s CALM HOURS 0 PERCENT CALM . ' o,o *... ***.= MISSING 17 TABLE 6 PAGE 4 of 8

.. " * ,., \ !-<' * L :* __ ARTl'ICIAL ISLAND l0/8i!*lV81.

JU INT OlSTRIBUTION 0, WINO DIRECTION ANO llPEED LOCATION 300FT OEG C/10011 LAPSE RATE ClOO*:!OFT)

.. 0.4/ 1.s CLASS E SPEEDS (HI/HR J 1*3 U*1 a .. 12 13*18 19"2" i!S PLUS SUH PERCENT DIRECTION SUH PERCEN"l SUH PERCENT SUH PERCENT llUM PERCENT SUH PERCENT SUM PERCENT N 3

• i!. l 5 .& 1 4 .a 17 1.0 28 l,fl l (I ,e '11 5.1 NNE 1

• l l

• l 8 I 5 23 l. 3 l .l l l . ,, 45 2.5 NE 4 .2 1

• 11 10 ,6 21 l.2 H ,q a ,i! &2 3.5 ENE " ,2 15 08 1 q* 1

• l q .s l

• 1 0 o.o ua 2.7 e E ., .11 12

• 7 q ,5 4 .2 0 o,o 0 o,o 32 1.a ESE 0 o.o &

• 3 3 .2 2

• 1 0 o.o 0 o,o 11 .6 SE l

• 1 12

• 1 ,, .l 10 ,6 l

• 1 0 o.o 30 t.7 SSE 0 o.o 8 ,5 18 1.0 t8 1

• 0 q .5 7. , II 60 3.Q .... s 1

• 1 12 .1 22 I 0 2 37 2. 1 i!l l.2 ll ,6 104 5,q SSW 0 o.o 1 o II 28 1,6 q.5 2.11 i!O l .1 8 ,5 106 6.0 sw 1

• 1 8

• 5 27 1. 5 4& 2.,, 5 .l 2

• l 89 s.o WSW 1

• 1 5

• 3 15 .a 7 *" 3

• i! 0 o.o 31 l. 7 w i!

• l i!

• 1 !3 .1 36 2.0 a 0 i! l

• l sa 3,3 WfllW a .2 5

• 3 7 *" ao 2.3 35 2,0 l

• i! q4 5,3 NW I

• l 5 .3 16 .q 211 i.6 21 l

• i! 15 .e 8& 11.a NNW I

• 1 3 .2 15

• e 25 1,4 l .1 i! .1 47 2.& --31 1.1 123 ,,

• q 230 13.o .!66 20. (; 1 &fl 904 79 "*" qqa 56,0 HE&N WIND SPEED 111,7 CALM HOURS 2 PERCENT CALH .1 '! MISSING 235 TABLE 6 ' PAGE 5 of 8

, .. " " ' -.'.) ' ,r, ' ' \* "-* I-' ARTIFICIAL ISLAND l011!i!*l218i!

JOINT DISTRIBUTION OF WINO DIRECTION ANO &PEED Lt'CATION 300FT Dl!G C/10011 LAPS[ RATE ... ,.*'*"J'f,.'

(300*30FT) 1 0 6 I 4,0 CLASS F EDS CH if HR J l *3 4*7 8 .. 1 i! 13 .. l ll l q.;i!4 i?S PLUS. SU" PERCENT DIRECTION SUM PERCENT SUM PERCENT SUM PERCENT SUM PERCENT SUM PERCENT SUM PERCENT' N 0 o.o 2

• 1 (I

• i? 9 .5 i I l NNE 0 o.o 0 o,o 5 ,3 l (I .e 2

• l NE i!

• l 1 I 1 0 o,o i!

• l l .1 0 o.o & .3 ENE 2

• l 1 * (I 6 .3 i!

• t l .1 0 o.o 19 l .1 e E 0 o,o l

• l II .2 0 o.o 0 o.o 0 o,o 5 ,3 ESE 0 o.o l

• l \

• l 0 o.o 0 o,o 0 o.o i? .1 SE 0 o*. o 5 ,3 i! I \ Q

• i! 0 o.o 0 o.o 11 ,6 SSE 1 . \ 6

• 3 1 ,Q 5 .l 3 .2 1

• l 23 1,3 s i!

• l 5 I] ti! .1 21 l

• i? 6 * * .s 0 o,o 46 i!. 6 SSW 0 0,0 3 I i! q ,5 111 i,O 17 1.0 ,, ,3 53 l.O SW l

• l 0 o,o l I 1 l i? ,7 8 .s l l ,6 33 11'1 WSW 0 0, I) l

• l II .2 l

• l i , l 0 n.o 1 , II *w 0 o,o. 0 o.o i!

• l 3

• i! l

• l 0 o.o 6 .-.* 3 WNW 0 o,o 3

• i? 0 o,o Q .2 0 o,o 0 n,o t * (I NW 0 0,0 l I l 1 ,* l 3

• i! 0 0,0 0 o.o 5 .3 NNW 0 0,0 '

• l l

• I 3

• i! l 1, l (I . o,.o 6 ,3 .. **

...... :. 8 ,5 .51 i? .-1 S'i 3.3 101 5,1 1111 '2,5 l '1 l, 1* 268 15.l 11EAlll WIND SPEED l 11I5 _, CALM l*IDURS 0 PERCENT CALM '\ o,o MISSING lb e TABLE 6 PAGE 6 of 8 TABLE 6 PAGE 7 of 8 TABLE 6 PAGE 8 of 8